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History Timeline of Robotics |
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1920 |
Czechoslovakian playwright Karel Capek introduces the word robot in the play R.U.R. - Rossum's Universal Robots. The word comes from the Czech robota, which means tedious labor. |
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1938 |
The first programmable paint-spraying mechanism is designed by Americans Willard Pollard and Harold Roselund for the DeVilbiss Company. |
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1942 | Isaac Asimov publishes Runaround, in which he defines the Three Laws of Robotics. | ||
1946 |
Emergence of the computer: George Devol patents a general purpose playback device for controlling machines, using magnetic recording; J. Presper Eckert and John Mauchly build the ENIAC at the University of Pennsylvania - the first electronic computer; At MIT, Whirlwind, the first digital general purpose computer, solves its first problem. |
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1948 |
Norbert Wiener, a professor at M.I.T., publishes Cybernetics or Control and Communication in the Animal, a book which describes the concept of communications and control in electronic, mechanical, and biological systems. |
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1951 |
In France, Raymond Goertz designs the first teleoperated articulated arm for the Atomic Energy Commission. The design is based entirely on mechanical coupling between the master and slave arms (using steel cables and pulleys). Derivatives of this design are still seen in places where handling of small nuclear samples is required. This is generally regarded as the major milestone in force feedback technology. |
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1954 |
George Devol designs the first programmable robot and coins the term Universal Automation, planting the seed for the name of his future company - Unimation. |
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1959 | Marvin Minsky and John McCarthy establish the Articifical Intelligence Laboratory at MIT. | ||
1960 |
Unimation is purchased by Condec Corporation and development of Unimate Robot Systems begins. American Machine and Foundry, later known as AMF Corporation, markets the first cylindrical robot, called the Versatran, designed by Harry Johnson and Veljko Milenkovic. |
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1962 |
General Motors purchases the first industrial robot from Unimation and installs it on a production line. This manipulator is the first of many Unimates to be deployed. |
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1963 | John McCarthy heads up the new Artificial Intelligence Laboratory at Stanford University. | ||
1964 |
Artificial intelligence research laboratories are opened at M.I.T., Stanford Research Institute (SRI), Stanford University, and the University of Edinburgh. |
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1964 | C&D Robotics founded. | ||
1965 | Carnegie Mellon University establishes the Robotics Institute. | ||
1965 |
Homogeneous transformations applied to robot kinematics - this remains the foundation of robotics theory today |
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1967 | Japan imports the Versatran robot from AMF (the first robot imported into Japan). | ||
1968 | Kawasaki licenses hydraulic robot design from Unimation and starts production in Japan. | ||
1968 |
SRI builds Shakey, a mobile robot with vision capability, controlled by a computer the size of a room. |
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1970 |
Professor Victor Scheinman of Stanford University designs the Standard Arm. Today, its kinematic configuration remains known as the Standard Arm. |
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1973 |
Cincinnati Milacron releases the T3, the first commercially available minicomputer-controlled industrial robot (designed by Richard Hohn). |
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1974 |
Professor Victor Scheinman, the developer of the Stanford Arm, forms Vicarm Inc. to market a version of the arm for industrial applications. The new arm is controlled by a minicomputer. |
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1976 |
Robot arms are used on Viking 1 and 2 space probes.Vicarm Inc. incorporates a microcomputer into the Vicarm design. |
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1977 |
ASEA, a European robot company, offers two sizes of electric powered industrial robots. Both robots use a microcomputer controller for programming and operation. |
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1977 | Unimation purchases Vicarm Inc. | ||
1978 |
Using technology from Vicarm, Unimation develops the PUMA (Programmable Universal Machine for Assembly). The PUMA can still be found in many research labs today. |
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1978 |
Brooks Automation founded |
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1979 | Sankyo and IBM market the SCARA (selective compliant articulated robot arm) developed at Yamanashi University in Japan | ||
1981 |
Cognex founded. |
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1981 |
CRS Robotics Corp. founded. |
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1982 | Fanuc of Japan and General Motors form joint venture in GM Fanuc to market robots in North America. | ||
1983 |
Adept Technology founded. |
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1984 | Joseph Engelberger starts Transition Robotics, later renamed Helpmates, to develop service robots. | ||
1986 | With Unimation license terminated, Kawasaki develops and produces its own line of electric robots. | ||
1988 |
Stäubli Group purchases Unimation from Westinghouse. |
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1989 | Computer Motion founded. | ||
1989 | Barrett Technology founded | ||
1993 | Sensable Technologies founded. | ||
1994 |
CMU Robotics Institute's Dante II, a six-legged walking robot, explores the Mt. Spurr volcano in Alaska to sample volcanic gases. |
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1995 | Intuitive Surgical formed by Fred Moll, Rob Younge and John Freud to design and market surgical robotic systems. Founding technology based on the work at SRI, IBM and MIT. | ||
1997 |
NASA's Mars PathFinder mission captures the eyes and imagination of the world as PathFinder lands on Mars and the Sojourner rover robot sends back images of its travels on the distant planet. |
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1997 | Honda showcases the P3, the 8th prototype in a humanoid design project started in 1986. | ||
2000 | Honda showcases Asimo, the next generation of its series of humanoid robots. | ||
2000 |
Sony unveils humanoid robots, dubbed Sony Dream Robots (SDR), at Robodex. |
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2001 |
Sony releases the second generation of its Aibo robot dog. |
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2001 |
Built by MD Robotics of Canada, the Space Station Remote Manipulator System (SSRMS) is successfully launched into orbit and begins operations to complete assembly of International Space Station |
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We are still building this historical timeline. Please contact us if you can add to it.